Fluid conditioning tank containing conditioning material and a receptacle therewithin containing different conditioning material



C. T. M GILL Feb. 17, 1948.

FLUID CONDITIONING TANK CONTAINING CONDITIONING MATERIAL AND A RECEPTACLE THEREWITHIN CONTAINING DIFFERENT CONDITIONING MATERIAL 'Filed Dec. 7, 1942 4 Sheets-Sheet l JIM/M7: 'm 7 D c. T. McGlLL 2,435,975 FLUID CONDITIONING TANK CONTAINING CONDITIONING MATERIAL Feb. 17, 1948.

AND A RECEPTACLE THEREWITHIN CONTAINING DIFFERENT CONDITIONING MATERIAL 4 Sheets-Sheet 2 Filed Dec. 7, 1942 Feb. 17, 1948. cm M GILL 2,435,975

FLUID CONDITIONING TANK CONTAINING CONDITIONING MATERIAL AND A RECEPTACLE THEREWITHIN CONTAINING DIFFERENT CONDITIONING MATERIAL Filed Dec. 7, 1942 4 Sheets-Sheet 3 Feb. 17, 1948.

c T. McGlLL 2,435,975

FLUID CONDITIONING TANKCONTAINING CONDITIONING MATERIAL AND A RECEPTACLE THEREWITHIN CONTAINING DIFFERENT CONDITIONING MATERIAL Filed Dec. 7, 1942 4 Sheets-Sheet 4 Patented Feb. 17, 1948 OFFICE.

FLUID CONDITIONING TANK CONTAINING CONDITIONING MATERIAL AND A RECEP- TACLE THEREWITHIN CONTAINING DIP FEREN'I CONDITIONING MATERIAL Chester '1. MoGill, Elgimlll. Application December 7, 1942, Serial No. 468,071 Claims. (01. filth-2 4) 1 i This application is a continuation in part of copending application Serial No. 274,705, flied May 20, 1939, which resulted in patent 7 2,304,109, issued December 8, 1942.

This invention relates to fluid conditioning apparatus, and is more particularly concerned with means operating in coniunction with such fluid conditioning apparatus ior supplementary treatment of the flui One of the principal objects of my invention is to provide supplementary treatment means installable or attachable as a separate unit, in or on a fluid conditioning apparatus, the unit con-, taining activated carbon, calgon, corexite, iron removing mineral, chlorine pellets, alum, iron coagulant, or any other fluid conditioning material, depending upon the needs of each particular installation, the unit in certain instances containing more than one oi these materials, where more than one kind of treatment is required.

A salient feature of the invention consists in the provision of a number .01 the fluid treatment units for a given fluid conditioning apparatus, the units being quickly and easily detachable and replaceable, so that a fresh unit may be substituted from time to time for an exhausted unit, and the exhausted units may be refilled or reconditioned without interrupting the operation of the fluid conditioning apparatus.

Another object of the invention is to provide fluid treatment means for a fluid conditioning apparatus, whereby to provide for simultaneous discharge from such an apparatus of fluids treated in diflerent ways, that is to say, in a water softening unit a portion of the water may be merely softened suitable for bath and laundry purposes and the remainder, with or without being softened, more or less as the condition of the incoming water may dictate, may be treated so as to. be particularly wholesome drinking water.

Another object oi this invention is to provide a fluid treatment unit easily installable in the upper end of the tank of a fluid conditioning apparatus suspended from a cover cap, this arrangement having the two-told advantage that the unit operates with equalized pressure inside and outside the same, and, hence, may be a light and inexpensive construction, and that the unit may be quickly and easily removed and replaced.

A further object of the invention is to provide a fluid treatment unit for operation in conjunctype adapted to be reconditioned or regenerated with brine, or the like, the fluid treatment unit being so connected with the fluid conditioning apparatus to permit passage of the reconditioning agent through the fluid treatment unit at the time of regeneration of the fluid conditioning apparatus, so as to clean or otherwise recondition the contents of the fluid treatment unit.

Still another object of the invention is to provide a fluid treatment unit tor operation in conjunction with a fluid conditioning apparatus. wherein the fluid treatment unit is also connected and arranged to operate as a proportional chemical feeder, discharging supplemental fluid conditioning material into the fluid being conditioned in the fluid conditioning apparatus, such chemical being supplied in a predetermined proportion to the volume of water passed through the apparatus.

Other ob ects and advantages of the invention will appear from the following description, in

Y which reference is made to the accompanying drawings, wherein- Fig. 1 is a view, partly in vertical section and partly in side elevation, of a fluid conditioning apparatus equipped with a fluid treatment unit in accordance 'with my invention;

Fig. 2 is an enlarged sectional view 01' the fluid treatment unit shown in Fig. 1; 1

Fig. 3 is a similar view of a modified form of treatment unit, adapted for use in the same way as that shown in Fig. 2;

Fig. 4 is a view similar to Fig. 1, but showing only the upper portion oi. the main tank, illustrating a diiferent form of water'treatment unit:

Fig. 5 is an enlarged sectional view 01 the water treatment unit shown in Fig. 4;

Figs. 6 and 7 are sectional views of other forms of water treatment units;

Figs. 8 and-9 are views similar to Fig. 4 showing still other forms of water treatment units;

Fig. 10 is a view similar to Fig. 1, showing an- 1 other embodiment of the invention, with the tion with a fluid conditioning apparatus of the as water treatment unit inside the main tank, providing for cleaning or reconditioning of the unit by the brine used in the regeneration of the water conditioning apparatus; v

Fig. 11 is a view similar to Fig. 1. but showing still another embodiment of the invention, in which the water treatment unit acts as a proportional chemical feeder, only the upper portion of the main tank being shown;

Fig. 12 is a fragmentary view showing another embodiment of the invention along similar lines;

Fig. 13 is an enlarged sectional detail 01 the form of closure cap shown in the various embodiments of my invention, with the exception of Figs. 9 and 12, and

Figs. 14 and 15 are two views of a storage and carrying case for water treatment units.

Similar reference numerals are applied to corresponding parts throughout the views.

Referring first mainly to Fig. 1, in the various embodiments of my invention, the fiuid conditioning apparatus is illustrated as comprising a main tank 2|, having a top opening 22, surrounded by an upwardly projecting neck 23, on which a removable cap 24 is fitted. The tank is supported on feet 25, and has a bottom 25 through the center of which projects a pipe connection equipped with a strainer 21. To save space, in some views only the upper portion of the tank 2i is shown. To simplify matters, in the following description it will be assumed that the fluid to be conditioned is water, and that the material 28 in the tank 2| is zeolite or other base exchange water softening material, and that the smaller tank 29 contains salt brine for the regeneration of the material 28 in the usual way. However, it should be understood that the invention is not limited to water softeners, but is applicable to other fluids and fluid conditioning apparatus. In each of the embodiments it will be understood that a multi-port valve 30 is provided, whether illustrated or not, shiftable manually from one position to another by means of the handle II to control the operation of the fluid conditioning apparatus. The raw hard water is supplied to the back of the valve 30 through a pipe (not shown), and during softening operation the incoming raw water is directed in the valve upwardly through the pipe 32 for passage downwardly through the bed of water softening material, and the softened water is discharged through the strainer 21 and conducted through pipe 33 back to the valve and directed in the valve to the pipe 34 connected to the service system. In an upflow softener, the water is directed downwardly from the valve and into the bottom of the tank, and the softened water is discharged from the top of the tank and directed in the valve to the service system. In most embodiments of the invention, as will soon appear, it is immaterial whether the softener operates on the upflow or downfiow principle. Assuming downfiow operation, however, the raw water during backwash is directed into the bottom of the tank after the valve 30 has been shifted to the backwash position, and the silt laden water discharged from the top of the tank through the pipe 32 is directed in the valve 30 to the drain pipe 35 leading to the sewer or other waste receptacle. After the backwash, the valve 30 is shifted to brining position and a small valve 36 is opened to permit drawing brine from the brine tank 29 through a small pipe 31 which extends down in the tank 29 to the bottom thereof. The valve 30 has an ejector nozzle therein through which water is discharged so as to entrain brine with it, the diluted brine being conducted to the tank 2| for passage through the bed of water softening material 28 in the usual way, and the spent brine discharged from the tank being conducted through the drain pipe 35 to the sewer or other waste receptacle. After a predetermined amount of brine has been assed through the bed, the valve 36 is closed and the raw water alone is passed through the bed to rinse out the brine and released calcium and magnesium, the rinse water being discharged through the drain pipe 35. When the outgoing rinse water tests soft, the

valve 35 is shifted back to the softening position to resume softening operation.

In accordance with my invention, the cap 24 has two passages therein, numbered 38 and 39, the passage 38 openin at its inner end 40 into the head space 4| in the tank and at its other end into a chamber 42 in the neck 23 with which the pipe 32 communicates, whereby to direct the flow between the head space in the tank and the pipe 32 in either direction through the passage 35 in the cap 24. The passage 39 communicates at its inner end with a pipe 43 threaded in an opening in the center of the cap, and communicates at its outer end with a chamber 44 in the neck 23 with which a pipe 45 is connected, whereby to establish a second flow of specially treated water from the water treatment unit 48, as, for example. filtered water for drinking purposes, this water being conducted through the pipe 45 to the point or points of use. The unit 46 is suspended from the cap 24 and partially submerged in the upper portion of the bed 28, as first disclosed in the copendin application mentioned above, of which this application is a continuation in part. The cap can be turned through to reverse the system of communication described. The construction of the cap 241s better shown in Fig. 13. A gasket 41 ported to communicate with the ports in the cap 24 and neck 23 is compressed between the neck and cap by the tightening of a, screw 48 in a U-shaped yoke 48, on which are jaws to engage underprojections provided on diametrically opposite sides of the neck 23. With this construction, when a softener is sold without a water treatment unit the same cap 24 may be provided, and either or both of the holes 52 and 53 may be closed with a removable screw-threaded lug, so that if the purchaser desires later to add the water treatment unit it will be a simple matter to install it. In many localities softened water, although entirely suitable for bath and laundry purposes, is not desirable for drinking, due to odor, taste, discoloration, or other objections, which a water treatment unit like that illustrated at 46 in Fig. 1 is constructed to eliminate so as to produce wholesome drinking water.

The unit 46, as disclosed in Fig. 2, has a pipe 54 communicating with the lower end of the pipe 43 and projecting downwardly to a point near the bottom of the shell or container 55, where it is closed by a plug 56 and has a number of slots 51. Another pipe 58 extends from the bottom of the container upwardly to a point near the upper end, and communicates-at its lower end with a strainer 59 below the bottom of the container 55. The container 55 is partially submerged in the upper portion of the bed 28 and is nearly filled with a fluid treatment material 60, such as activated carbon, calgon, corexite, iron removing mineral, chlorine pellets, alum, iron coagulant, or any other water treatment material depending upon the kind of water and the kind of treatment or treatments desired. In operation, during normal softening operation, a certain amount of the raw water entering the top of the tank 2! and passing downwardly through the bed 28 is conducted through the slots in the strainer 59 and flows upwardly through the pipe 58 for passage downwardly through the bed 60 of water treating material, and is collected through slots 51 for passage upwardly through the pipe 54 and pipe 43 andthrough the passage 39 in the cap 24 for discharge through the pipe 45. The raw water in passing through the upper portion or the bed 24 will be softened to a degree depending upon how far the container" is This partially softened water is then subjected to whatever supplemental treatment is obtainable by passage through the bed ll ofwater treating material, such' supplemental treatment being, of

course, dependent on the kind of material in the container 56. In a softener operating on the up flow principle, the water delivered to the unit 48 for supplemental treatment will, of course, be aoftened. If the water discharged through pipe. II is intended for drinking, the material I could be an odor and/or taste removing material, or could be a material adapted only to properly chlorinate the drinking water, Itshouid be ap-: parent that the operation of the water treatment. unit in no way interferes with the otherwise nor mal operation of the softener, but the installation of the water treatment unit makes wholesome drinking w'ater available in the desiredamount without inconveniencewand at'very low cost. Lo-

cation of the unit 46 inside the tank 2| isofad vantage because thepressures inside and outside the container 55 are equalized and the container can, therefore, be of light and inexpensive construction and does not h ve to be entirely watertight.

In accordance with my invention, as disclosed in Figs. 14 and 15, six units like that shown at 46 may beprovided for a single installation to insure an ail year around supply of wholesome drinking water, a storage and carrying case ll be ing provided, having six compartments for these six'units, A cover 82 hinged to the case, as at II,

and equipped with a handle 64 and a suitable lock 05 contains the used and unused units. an exhausted unit being removed from the apparatus; and replaced with an unused unit at regular intervals, or whenever a test of the drinking water indicates the necessity for replacement of the unit then in ,use. In that way the user may have the exhausted units refilled or reconditioned while submerged in the bedll.

anammerely subjected to treatment for removal of odor andlor taste, and under such conditions the water treatment unit should be installed in a glowizflow softener in the manner illustrated in Referring to Fig. 6, the water treatment unit c shown comprises a container lie of perforat'e'd or screen material in its outer and inner walls 1! and I2 and filled with a water treating material "c. The incoming water to be treated.

which may be hard water, soft water, or partly service pipe II in the another unit is still in use and. there will, therefore, be no interruption of service. The cap 24 can be removed easily to permit withdrawaland removal of the unit It and attachment of another unit.

In the modified form of unit 46a shown in Fig.

3, the container 55a has an opening Si in the bot-- tom thereof for inlet of water through a screen '1 and passage upwardly through the water treating material 60a. Another screen 68 in the upper end of the container serves to retain the mate softened water, depending upon the mode of installation or upon whether the softener operates on the upflow or do'wnfiow principle, as previously indicated, passes through the walls II and I: from. all directions and through the material c therebetween for treatment, the treated water being then discharged through pipe 43 to the scribed.

The'unit .dshown in Fig; 7 is a combination unit made up of two containers lid and He in one. The upper container contains a bedof wa- 'ter treatment materialjld, similar to any of the materials Il -c, and .the lower container Ilecontains a suitable filtering material lle., II is a partition between thetwo materials, and it are. bailies in the lower container to insure passage of fluid in a zigzag course through all of the filtering material after entering the bottom. inlet N. The filtered water enters slots 18 in the lower end of the pipe 1'! and is conducted through the pipe. into the upper end of the upper container for passage downwardly through the bed, llldfor treatment. The water is discharged through slots II in the lower endlof the pipe 19, which communicates with the pipe 43 connected withthe service pipe ll through the passage in the cap 24,

inthemanner previously described. .The waterinlcertaln localities, especially if taken directly from the supply pipe,in a downflow softener, for example, where it has not been subjectedto the filtering action of the bed of water softening material, may require filtering in addition to treatment for odor and/or taste, and in such cases a combination unit of a the type just-described fills the needs.

. Referring to Fig. 8, wherein I have shown a unit of the type a of Fig. 3, open at top andbottom for suspension of the unit from the cap 24 on the pipe 43,! have illustrated the container rial in the discharge oftreated water through pipe to the service pipe 45; The operation with this water treatment unit installedin the same way as the unit 46 in Fig. 1 is substantially the same and the same advantages are derived.

Referring now to Figs. 4 and 5, the water treatment unit 48b is shown nected to a pipe 43 in the same manner as the unit 46, but disposed wholly above the bed 28 in the head space 4 I. Assuming downflow operation, it will be apparent that the incoming raw water will be subject to treatment in the unit 46b without any softening. On the other hand, if the unit operates on the upflow principle, the water entering the unit lib is softened water. The unit to comprises a container b having a closed bottom 69 and a a as disposed wholly above the bed 28 but provided with a downwardly extending strainer pipe '80 threaded in the bottom opening of the container. The strainer pipe 80 extends down into the upper portion of the bed 28 and has slots II in the lower portion thereof the lower end of the pipe being closed by a plug 82. This construction will afford substantially the same operation as that of Figs. 1, 2, and 3, although the container 55a is not itself submerged for inlet of water,

in the upper portion of the bed. The water.

passed through the container, being taken from a point below the top of the bed will be more or less softened and, depending upon the extent of softening desired, the pipe 80 may be provided of screened inlet opening 10 in the top. so thatthe water is forced to pass through the bed of water treating material b before it can be discharged through slots 51 in the Pine 54 and conducted to' pipe l5 through the pipe 43 and cap whatever length is necessary. This makes the unit easily adaptable to different requirements in different localities having waters of widely different characteristics.

. In Fig.9 I have shown a fluid conditioning apparatus of the kind covered in my copending ap-' plication mentioned above, of which this appli-- cation is a continuation in part. II is a strainer suspended on a tubular fitting 84 carried on the manner previously de-,

cap Ma. The cap closes the open top of the tank and has a single passage 38 therein for conducting raw water from the pipe 32 through the fitting 84 into the head space It in the tank. A flap valve 85 is hinged on the side of the fitting N and has an aperture It therein. The valve falls by gravity to its seat covering the opening in the side of the fitting l4, and when water is delivered to the tank through the pipe I! the valve fl unseats easily to admit the water. A check valve ll prevents flow of the incoming water downwardly into and through the slots of the strainer 83, so that all incoming water passes the valve 85. It isonly when the direction of flow is reversed in backwashing that the check valve I! opens to allow the passage of water upwardly through the fitting 84 from the strainer ll and out through the pipe 32 to the drain pipe ii. The bulk of the outflow is through the strainer l8. and the strainer serves to retain the mineral of the bed 28 while allowing fine particles of sediment to escape with the outgoing water through the slots. The aperture ll in the flap valve '8 adords an outlet for suspended particles of sediment, but this aperture, which is much larger than any of the slots in the strainer, will not be apt to allow any particles of mineral to escape, inasmuch as the flap valve is located so high in relation to the top of the bed and the mineral is, of course, much heavier than the suspended sediment particles so that it does not rise far enough to reach the flap valve, and the rate of flow the normal operation oi the softener. whereby to cleanse and sterilize the bed as in the unit lib duringthe brining of the bed 28.. After a prethrough the aperture It is not great enough to entrain the heavier mineral particles. but only great enough to entrain the lighter sediment particles. The strainer It forms asupport for a water treatment unit of the type a, which, as disclosed in Fig. 3, is open at the top and .bottom for passage through the bed a of water treatment material from the open lower end I to the upper end 80 of the container, which is removably secured 'to the lower end of the strainer 83. A pipe a extends from the upper end of the container upwardly through a hole in the cap 24a and is connected with the service pipe 45. This water conditioning. unit is therefore completely submerged in the bed .of water.s oftening material 28, and, consequently, the water admitted to the unit a for passagethrough the material therein is softened before the supplemental treatment and is likewise filtered before such supplemental treatment by reason of its passage through the bed 28.

Referring now to Fig. 10, I have illustrated a water treatment unit installed in such a way that it is arranged to be cleaned and reconditioned by reverse flow therethrough of brine in the regeneration of the bed of water softening material in the softener. In this'figure a water treatment unit b of the type shown in Fig. is illustrated, suspended from the cap 24 inside the tank II and arranged to deliver filtered orotherwise treated water to the service pipe 45. A valve 82 in the service pipe is closed at'the time of regeneration of the softener, and a valve it, in the pipe 32 is also closed at that time.'- A valve 38 in the brine pipe 31 is opened as wellas a valve 0! in .a bypass pipe connection m extending from the discharge side of the ejector nozzle I to the service pipe 45. The raw water flowing through the elector nozzle lllfl entrains brine from the brine tank through the pipe 31 and the mixture ofbrine and water is conducted through pipe IN to the service pipe 45 and flows through the unit lob Q the reverse direction from that of the water in determined amount of brine has been passed through the bed 28 in the softener and the bed "b in the water treatment unit, the brine valve :0 is closed and raw water is permittedto continue flowing in the same direction through the softener and water treatment unit to rinse out the brine. After a small predetermined amount of rinse water has been passed through the water treatment unit, sufllcient for complete rinsing thereof, the valve 5! can be closed and the valves I2 and ll opened and the rinsing of the softener canbe continued until the water discharging to the drain I! tests soft, inasmuch as it would not be advisable to pass rinse water through the wa ter treatment unit for the full period of rinsing of the softener. As soon as the valve 98 is reopened, the unit 1) is, of course, ready to resume furnishing treated water, even before rinsing of the softener has been completed. With certain water treatment materials the passage of brine therethrough reconditions the material and the unit after such reconditioning is substantially as good as new, and the water treatment unit should, therefore, last as long as the softener.

Referring to Fig. 11, I have shown a softener in which the water treatment unit 46b employed does not contain a bed of any solid water treating material or mineral, but instead is filled with a liquid water treating chemical to the unit being installed in such a way that it acts as a proportional chemical feeder to discharge a small amount of the treatment liquid into the water in proportion to the flow of water through the softener. It will be readily apparent to those skilled in this art that the water in certain localities can best be treated in this way before the water is softened, as, for example, where it is desired to precipitate out certain impurities so that these may be filtered out of the water by the bed 2. through which the water must pass in softening. The unit 46b is suspended from the cap 28 on a pipe 43. Raw water is delivered into the top of the tank through the pipe 32, and a branch pipe connection It! from the raw water supply pipe 32 conducts water into the unit to to expell the liquid chemical therefrom at a rate dependent upon the adjustment of the regulating valve I in the pipe I02. During regeneration of the softener, the valve I03 can be closed so that there will be no wasting of the chemical 60). When all or nearly all of the chemical has been used up, the unit can, be refilled from a source of chemical under pressure, or by gravityjthrough a pipe Ill connected with the pipe I02 by closing valves ll and III and opening a valve I05 in the refill pipe I and opening another valve I06 in a vent pipe I" connected with the raw water supply pipe 32.

The water treatment unit We shown in Fig. 12 operates in a similar manner to that illustrated in Fig. 11, and is supported on the end of a strainer 83 in the head space of a tank 2!, similarly as the unit 48a in Fig. 9, the strainer being carried on a fitting l4 projecting downwardly from the closure cap 240. The flap valve 85 on this fitting is the same as the fiap valve in Fig. 9 and has the same aperture 86. There is also a check valve 81 in the fitting 84, the same as in Fig. 9. In general, therefore, the operationof this softener is the same as that of Fig. 9, the valve I! being closed during softening as the incoming raw water from the pipe 32 enters the head space in the tank past the valve II, which opens freely for inlet or water. The strainer It comes into action during backwash when the outgoing water unseats the valve 8'! and seats the valve 85, the strainer under these conditions serving to retain the mineral while allowing escape of finer particles of sediment, and the valve 85 permitting escape of sediment through the aperture 88 without danger, however. of any mineral escaping -due to the elevation 01' the valve" and the rate of discharge at that elevation, The unit c eontains a liquid water treatment mineral "I, and a pipe "2a, which extends downwardly through the cap 24a and enters the top of the container "c to deliver raw water under pressure to discharge the chemical from the containerthrough another pipe I i0, which extendsffrom a mi t near the bottom of the container up through the top substantially parallel to the strainer 0 to a point near the upper end of the fltting "adjacent the flap valve 85, so that the chemical discharged from this pipe lill will be mixed readily with the incoming raw water entering the tank past the valve 85. The rate of discharge is determined by one or both of valves i034: and lllb in the pipes iMa and H0, respectively. However, any control may be provided to regulate the discharge of chemical in proportion to the water or other fluid passed through the tank 2!. It should be understood that although the container lie is shown disposed inside the tank 2|, it may be placed outside the tank and have only its discharge pipe extended into the tank to a point adjacent the flap valve 85. The operation oi this embodiment of the invention is manifestly closely similar to that of Fig. 11.

It is believed the foregoing description conveys a good understanding of the objects and advantages of my invention. The appended claims have been drawn with a view to covering all legitimate modifications and adaptations.

I claim:

1. In a fluid conditioning system, the combination of a tank containing fluid conditioning material, said tank having a top opening provided therein communicating with a freeboard space in said tank above the material therein, a removable closure for said top opening. an elongated member suspended from said I closure in the freeboard space in said tank, an auxiliary fluid conditioning receptacle that is of a size removable through said opening and contains another kind of fluid conditioning material, said auxiliary receptacle being suspended in said tank on the lower end of said elongated member in the upper portion of the fluid conditioning material in said tank, said auxiliary receptacle communicating with the interior or said tank, whereby said receptacle is subject to substantially the same fluid pressure within and without and fluid flowing from said tank through said auxiliary receptacle is subjected to one conditloning by passage through the fluid conditioning material in the tank and to another conditioning by passage through thematerial in said auxiliary receptacle, and conduit means communicating with said tank adapted to be connected for conducting fluid to and from the tank, said conduit means including at least one conduit communicating through said closure with said auxiliary receptacle.

2. In a fluid conditioning apparatus, the combination of a tank containing fluid conditioning material, said tank having a top opening provided therein communicating with a tree- 76 tor cond ting board space in said tank above the material therein, a removable closure for said top opening, an auxiliary fluid conditioning receptacle that is or a size removable through said opening and contains another kind of fluid conditioning material, said auxiliary receptacle being attached to said closure and suspended therefrom in said tank and communicating with the interior of said tank whereby said receptacle is subject to substantially the same fluid pressure within and without and fluid flowing from said tank through said auxiliary receptacle is subjected to conditioning by passage through the material in said auxiliary receptacle, and conduit means communicating with said tank adapted to be connected for conducting; fluid to and from the tank, aid onduit means includin t-Jeast one conduit communicating through said closure with said auxiliary receptacle.

3. In a fluid conditioning apparatus, the combination of a tank containing fluid conditioning material, said tank having a top opening provided therein communicating with a freeboard space in said tank above the material therein, a removable closure for said top opening, an auxiliary fluid conditioning receptacle that is of a size removable through said opening and contains another kind oi fluid conditioning material. said auxiliary receptacle being attached to said closure and suspended therefrom in said tank so that the auxiliary receptacle is at least partially embedded in the upper end portion oi! the fluid conditioning material in said tank, said auxiliary receptacle communicating with the interior of said tank whereby said receptacle is subject to' substantially the same fluid pressure within and without and fluid flowing from said tank through said auxiliary receptacle is subjected to one conditioning by passage through the fluid conditioning material in the tank and to another conditioning by passage through the material in said auxiliary receptacle, and conduit means communicating with said tank adapted to be connected for conducting fluid to and from the tank, said conduit means including at least one conduit communicating through said closure with said auxiliary receptacle.

4. In a fluid conditioning apparatus, the combination oi" a tank containing fluid conditioning material, said tank having a top opening provided therein communicating with a freeboard space in said tank above the material therein, a removable closure for said top opening, an auxiliary fluid conditioning receptacle that is of a size removable through said opening and contains another kind of fluid conditioning material, said auxiliary receptacle being attached to said closure and suspended therefrom in said tank in the i'reeboard space, a strainer connected to and extending downwardly from the auxiliary receptacle into the upper end portion of the fluid the fluid conditioning conditioning material in said tank and affording communication for said auxiliary receptacle with the interior of said tank below the top of material in said tank, whereby said receptacle is subject to substantially the same fluid pressure within and without the fluid flowing from said tank through said auxiliary receptacle is subjected to one conditioning by passage through the fluid conditioning material in the tank and to another conditioning by passage through the material in said auxiliary receptacle, and conduit means comprising with said tank adapted to be connected fluidtoandirom thetanksaid conduit means including at least one conduit communicating through said closure with said auxiliary receptacle.

5. In a fluid conditioning apparatus, the combination of a tank containing fluid conditioning material, said tank having a top opening provided therein communicating with a Ireeboard space in said tank above the material therein, a removable closure-for said top opening, an auxiliary fluid conditioning receptacle that is of a size removable through said opening and contains another kind of fluid conditioning material, said auxiliary receptacle being attached to said closure and suspended therefrom in said tank in the freeboard space and-communicating with the interior of said tank, and conduit means communicating with saidtank adapted to be connected for conducting fluid to and from the tank, said conduit means including at least one conduit communicating through said closure with said auxiliary receptacle.

, CHESTER. '1. McGILL.

REFERENCES CITED The following references are of record in the ills of this patent:

Number UNITED STATES PATENTB Name Date Cross June 5, 1923 McGill Jan. 15, 1929 McGill Dec. 8, 1942 Deutsch Dec. 28, 1886 Morgan Jan. 3, 1893 Deutsch July 11, 1899 Bommarius "Aug. 29, 1899 Randall Nov. 7, 1899 Huischmidt July 2, 1929 McGill Dec. 4, 1928 Ballet al. July 10, 1894 Hepburn Feb. 12, 1924 Caps June 16, 1925 Kenney Oct. 2, 1928 McGill Jan. 1, 1929 McGill Feb. 26, 1929 Bilde Oct. 10, 1933 McGill Mar. 5, 1929. McGill Dec. 8, 1942 

